Chemistry: this shit’s important

I put this question up on facebook, and people came up with some pretty good answers. Electricity was the most popular. Fermentation and antibiotics were also good suggestions. But when you think it in terms of having a direct impact on the largest amount of people, there’s really only one answer: the Haber-Bosch process.

Yeah, I know. You’ve never heard of it. But you may be alive because of it.

The Haber-Bosch process is how you make ammonia out of nitrogen and hydrogen gasses. I’m simplifying it a wee bit, but here’s how it works:

Figure 2. An approximation of the Haber-Bosch process. Please note that squish = approximately 250 times the pressure of the normal atmosphere at sea level, and way hot = anywhere from about 900 to 1600 degrees F. Maybe I should have said way way hot.

and poof! You have ammonia!

Figure 3. Ammonia (NH3) is a happy molecule. Please note the the happiness factor of each molecules has been approximated using standardized procedures published elsewhere.

The thing about this process–chemists had been trying to do this for more than 100 years when Fritz Haber figured it out in 1909. As living things, nitrogen’s pretty important to us. Our bodies are about three percent nitrogen by weight, and we get it from eating plants and other animals. But plants, having no mouths (for the most part), have to get it either from the air or the soil. The problem is that even though N2 (the nitrogen molecule, Fig. 1) makes up almost 80% of the air we breathe, it doesn’t react with anything. That triple bond you see up there is quite strong, and it takes a lot of energy to pull it apart, more than plants generally have at their disposal. So plants can’t break it down1 and recycle it into things like amino acids and cell walls and all that useful stuff. For it to be usable, nitrogen has to be “fixed.”

Ammonia, NH3 (Fig. 3), is a fixed form of nitrogen. That means that its bonds are breakable, and it can react with other things. Generally, it’s used to make nitrates, NO3, which is used for both explosives and fertilizer. Natural forms of fixed nitrogen are rare, but it’s found in bat and bird poo, and saltpeter. These things were some seriously in demand fertilizers before the Haber-Bosch process was discovered. In fact, The Guano Islands Act of 1856 was passed so people could claim any uninhabited, poop-covered island they found as a US protectorate. Wars were fought over poo. Really. So when Haber found a way to finally make fixed nitrogen, it was quite a big deal.

Figure 4. Americans get the poo. The Guano Islands Act of 1856 is allegedly still on the books. Get your flag and go! (With apologies to Eddie Izzard.)

Then Carl Bosch and Alwin Mittasch came along and figured out how to make Haber’s system workable on an industrial scale. Haber had originally used an osmium catalyst to make ammonia, but that’s pretty expensive. Mittasch went through about 4000 other catalysts until he found one that worked as well—a mixture of iron and metal oxides. The Haber-Bosch process was officially rolled out in the industrial world in 1913. Haber won the Nobel Prize for it in 1918. Bosch shared the prize with Friedrich Bergius in 1931 for figuring out how to deal with high-pressure chemistry.

So this was a great chemical breakthrough and all that, but the really important thing? A lot of people stopped starving to death.

The above graph shows how the world’s population changed after we got cheap, available fertilizer. Look at the difference between the solid black line and the dashed red line. According to this chart, about 3 billion people are alive today because of this. Because of one chemical reaction.

The Haber-Bosch process is used to make about 500 million tons of artificial fertilizer per year, and sustains about 40% of the population. It uses about ONE PERCENT of the world’s total energy supply2. If the population continues to grow as expected, then by 2050, about 270 million tons of coal (or equivalent energy) will be needed to make enough fertilizer to keep us all from starving to death.3

One chemical reaction.

On the flip side, nitrogen runoff from fertilizer is choking lakes and rivers with algae and messing up the ecosystem. Keeping the Haber-Bosch reaction running is filling the air with carbon dioxide, carbon monoxide, and other combustion byproducts that are changing the climate. I’m not even going to go into the potential impact of a hugegrowingwayfast population. (Tangentially, Haber’s discovery also kept the Germans in explosives during World War I. He’s known as the father of chemical warfare, and his work led to the use of Zyklon B in Nazi death camps.The Alchemy of Air is a fascinating book about the whole history. The writing is a bit dry, but I still highly recommend.)

Even taking these things into account, it cannot be argued that the Haber-Bosch process has had an ungodly huge impact on all of our lives. Go ahead, try to deny it. Try with both hands.

This year is the International Year of Chemistry, “celebrating the achievements of chemistry and its contributions to the well-being of mankind.” And believe it or not, there are a lot of them. Way too many to mention. Way too many for us to even know about.

1Legumes (eg beans or peanuts) have bacteria at the base of their roots called rhizobia that can pull nitrogen out of the air. They’re the only kind of plants that do this, and that’s why you’ll often see soybeans as a rotator crop with corn. Beans put nitrogen in the soil, and corn pulls quite a bit of it out.

2Science 297(1654), Sep 2002.

3Biological Nitrogen Fixation – National Research Council . National Academic Press 1994.

Excellent! Are you contemplating a career as a chemistry textbook author? You could make chemistry so popular that students would flock to it, thus making Chemjobber even more worried about future job prospects. (Or, they could just become better informed citizens.)

I don’t think that the ACS will be adopting that headline as their motto anytime soon however.

Absolutely love this post. Just showed it to my daughter (she’s 18) after she used the phrase “this shit’s important.” She really enjoyed the post — if she becomes a scientist or writer, I’ll have you to blame/thank.